Experiment No: …..1 Running light test and Blocked Rotor ...
No-load & blocked rotor test, Equivalent circuit, Phasor diagram
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Transcript of No-load & blocked rotor test, Equivalent circuit, Phasor diagram
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Gandhinagar Institute Of Technology
Subject – AC Machines (2140906)Branch – Electrical Topic – (1) No-load & blocked rotor test (2) Equivalent circuit, Phasor diagram
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Name Enrollment No. Abhishek Chokshi 140120109005 Himal Desai 140120109008Harsh Dedakia 140120109012
Guided By – Prof. Yogesh Sir
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Equivalent Circuit of Induction Motor• The induction motor is similar to the transformer with the
exception that its secondary windings are free to rotate
• As we noticed in the transformer, it is easier if we can combine these two circuits in one circuit but there are some difficulties in induction motor due to slip.
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• When the rotor is blocked (or locked), i.e. s =1, the largest voltage and rotor frequency are induced in the rotor,
• On the other side, if the rotor rotates at synchronous speed, i.e. s = 0, the induced voltage and frequency in the rotor will be equal to zero,
• Now, if in the running condition
Where, ER0 = largest value of the rotor’s induced voltage obtained at s = 1(blocked rotor)
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• This is same for the frequency i.e,
• So, as the frequency of the induced voltage in the rotor changes, the reactance of the rotor circuit also changes,
Where, Xr0 = rotor reactance at the supply frequency
(at blocked rotor)
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• Then, we can draw the rotor equivalent circuit as follows
Where ER = induced voltage in the rotor RR = rotor resistance
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• Now we can calculate the rotor current as • Dividing both the numerator and denominator by s so
nothing changes we get Where ER0 = induced voltage at blocked rotor condition (s = 1) XR0 = rotor reactance at blocked rotor condition (s = 1)
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• Now we can have the rotor equivalent circuit
• Now as we managed to solve the induced voltage and different frequency problems, we can combine the stator and rotor circuits in one equivalent circuit
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Where, , Reflected rotor reactance , reflected rotor resistance , reflected rotor current
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Approximate Equivalent Circuit
• Similar to the transformer equivalent circuit can be modified by shifting the exciting circuit () purely across the supply, to the left of
• Due to this we are neglecting the drop across due to , which is very small.
• Hence the circuit is called approximation equivalent circuit.
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• Now the resistance while the reactance can be combined. So we get,
and
while
and
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On Load Phasor Diagram of Induction Motor
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No Load Test
• The test is conducted by rotating the motor without load.• The test is performed at rated frequency and with
balanced poly-phase voltages applied to the stator terminals
• The only load on the motor is the friction and windage losses, so all Pconv is consumed by mechanical losses
• As the motor is on no load, the power factor is very low which is less than 0.5.
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• The motor speed on no load is almost equal to its synchronous speed hence for practical purpose, the slip can be assumed to be zero.
• The equivalent circuit reduce to……..
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• Combining Rc and RF+W we get,
• At the no-load conditions, the input power measured by meters must equal the losses in the motor.
• The input power equalsPin = Pstator+Pcore+PF+W = 3I1
2R1+Protor Where,
Protor = Pcore+PF+W
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• The parameters of equivalent circuit can be obtained as,
And
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Equivalent circuit with phasor diagram
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Blocked Rotor Test
• In this test, the rotor is locked or blocked so that it cannot move, a voltage is applied to the motor, and the resulting voltage, current and power are measured.
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• Now, as the rotor is blocked, the slip s = 1 hence the magnetizing reactance is much higher than the rotor impedance and hence it can be neglected.
• Hence the equivalent circuit reduce to,
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• The blocked rotor power factor can be found as,
• The magnitude of total impedance is,
Now,
And,
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Equivalent circuit with phasor diagram
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References• www.wikipedia.org• https://iitg.vlab.co.in/• https://coep.vlab.co.in/• https://www.youtube.com/watch?v=dtzn63hlBrU• Technical Publication
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THANK-YOU